DNA methylation in benign breast epithelium in relation to age and breast cancer risk.

BACKGROUND: Many established breast cancer risk factors are related to the timing and duration of exposure to reproductive hormones, which are known to drive breast epithelial cell proliferation. The epigenetic molecular clock hypothesis suggests that CpG island methylation records the cell division history of benign epithelium. In proliferative epithelium, such as breast, this may provide an individualized cell-based measure of cancer risk. METHODS: Methylation of cyclin D2, APC, HIN1, RASSF1A, and RAR-beta2 was measured by quantitative multiplex methylation-specific PCR in 290 benign and malignant breast epithelial cell samples obtained by palpation-directed fine-needle aspiration biopsy from 164 women. Univariate, multivariate, and unsupervised cluster analysis was used to establish the relationship between TSG methylation and a personal history of breast cancer, predicted breast cancer risk, and specific breast cancer risk factors. RESULTS: RASSF1A methylation was highly correlated with breast cancer risk [odds ratio (OR), 5.28; 95% confidence interval (95% CI), 1.95-14.32; P = 0.001], atypical cytology (OR, 4.11; 95% CI, 1.30-12.98; P = 0.016), and benign breast disease requiring biopsy (OR, 6.12; 95% CI, 1.41-26.51; P = 0.016). RASSF1A methylation increased linearly between ages 32 and 55. Increasing parity was associated with decreased APC methylation. CONCLUSIONS: TSG methylation increases in benign breast epithelium with increasing age. Because it is independently related to a personal history of benign or malignant breast disease and to predicted breast cancer risk, it may have value for breast cancer risk stratification and as a surrogate endpoint marker in prevention trials.     

The influence of family history on breast cancer risk in women with biopsy-confirmed benign breast disease: results from the Nurses' Health Study

BACKGROUND: An association between histologic category of benign breast disease (BBD) and breast cancer risk has been well documented. However, the influence of a positive family history (FH) on breast cancer risk among women with biopsy-confirmed BBD is less certain. METHODS: The authors conducted a nested case-control study of BBD and breast cancer risk among 2005 women who were enrolled in the Nurses' Health Study. Cases were women with breast cancer who had a previous benign breast biopsy (n = 395 women). Controls were women who also had previous biopsy-confirmed BBD but were free from breast cancer at the time the corresponding case was diagnosed (n = 1610 women). BBD slides were reviewed and categorized as either nonproliferative lesions, proliferative lesions without atypia, or atypical hyperplasia (AH). RESULTS: Compared with women who had nonproliferative lesions and no FH, women who had proliferative lesions without atypia and a positive FH had a higher breast cancer risk (odds ratio [OR], 2.45; 95% confidence interval [95% CI], 1.61-3.70) than women with no FH (OR, 1.51; 95% CI, 1.12-2.06; P = .07). Among women who had AH, the OR for the development of breast cancer was 4.38 (95% CI, 2.93-6.55) for those with no FH and 5.37 (95% CI, 3.01-9.58) for those with a positive FH (P = .57). There was no significant interaction between the type of BBD and FH (P = .74). CONCLUSIONS: A positive FH of breast cancer slightly increased the breast cancer risk among women who had proliferative lesions without atypia. The increase in risk of breast cancer associated with FH was not significant among women who had AH.     

HER-2/neu amplification in benign breast disease and the risk of subsequent breast cancer.

PURPOSE: The purpose of this study was to determine whether the presence of HER-2/neu gene amplification and/or overexpression in benign breast disease was associated with an increased risk of subsequent breast cancer. PATIENTS AND METHODS: We conducted a nested case-control study of a cohort of women who were diagnosed with benign breast disease at the Mayo Clinic and who were subsequently observed for the development of breast cancer. Patients who developed breast cancer formed the case group, and a matched sample from the remaining cohort served as controls. Benign tissue samples from 137 cases and 156 controls and malignant tissues from 99 cases provided DNA or tissue for evaluation of HER-2/neu amplification and protein overexpression. RESULTS: Among the controls, seven benign tissues (4.5%) demonstrated low-level HER-2/neu amplification, whereas 13 benign (9.5%) and 18 malignant (18%) tissue specimens from cases exhibited amplification. HER-2/neu amplification in benign breast biopsies was associated with an increased risk of breast cancer (odds ratio ?OR = 2.2; 95% confidence interval ?CI, 0.9 to 5.8); this association approached statistical significance. The risks for breast cancer associated with benign breast histopathologic diagnoses were OR = 1.1 (95% CI, 0.6 to 1.9) for lesions exhibiting proliferation without atypia and OR = 1.5 (95% CI, 0.4 to 5.6) for the diagnosis of atypical ductal hyperplasia. For women having both HER-2/neu amplification and a proliferative histopathologic diagnosis (either typical or atypical), the risk of breast cancer was more than seven-fold (OR = 7.2; 95% CI, 0.9 to 60.8). Overexpression of the HER-2/neu protein product, defined as membrane staining in 10% or more of epithelial cells, was found in 30% of the breast tumors but was not detected in any of the benign breast tissues. Case patients who had HER-2/neu gene amplification in their malignant tumor were more likely to have had HER-2/neu amplification in their prior benign biopsy (P =.06, Fisher's exact test). CONCLUSION: Women with benign breast biopsies demonstrating both HER-2/neu amplification and a proliferative histopathologic diagnosis may be at substantially increased risk for subsequent breast cancer.     

Early life factors and incidence of proliferative benign breast disease.

Proliferative benign breast disease is a marker of increased breast cancer risk, yet little is known about its etiology. Most studies of benign breast disease have focused only on risk factors in adulthood, despite growing evidence that factors in early life influence breast cancer risk. We explored the relations of several early life factors with incidence of proliferative benign breast disease among 71,896 premenopausal women in the Nurses' Health Study II who recalled their body fatness at young ages, physical activity in adolescence, birthweight, and history of being breastfed. Between 1991 and 1997, 901 of these women were identified as having proliferative benign breast disease from a centralized pathology review. Relative risks (RR) and 95% confidence intervals (95% CI) were estimated from Cox proportional hazards models. Greater childhood body fatness (ages 5-10) was associated with decreased risk of proliferative benign breast disease; the multivariate RR (95% CI) for the most overweight compared with the most lean was 0.61 (0.44-0.86; P(trend) < 0.0001) and remained significant after adjustment for current body mass index. Body mass index at age 18 was also inversely associated with incidence of proliferative benign breast disease, with a multivariate RR (95% CI) of 0.67 (0.52-0.88) for those who were > or =25 kg/m(2) compared with those who were <19 kg/m(2) (P(trend) = 0.001). There were no clear associations for physical activity in adolescence, birthweight, or being breastfed. These results indicate that premenopausal women who were heavier at young ages have lower incidence of proliferative benign breast disease, consistent with previous findings for breast cancer.     

Benign breast disease and breast cancer: a case-control study in a cohort in Italy

Sixty-two cases of invasive breast cancer were identified in a large cohort of women previously treated for biopsy-proven benign breast disease (BBD) at the Breast Unit of CSPO, in Florence, along with a group of 315 controls, strictly matched by age and year of diagnosis. A pathologist reviewed and reclassified all the original BBD slides according to recently proposed criteria (no evidence of epithelial proliferation, epithelial proliferation without or with atypia). Information about potential confounding factors was collected during personal interviews. In comparison to the women with "non-proliferative" BBD, women classified as having "proliferative disease without atypia" showed a weak and non-significant increase in risk (OR 1.3; 95% CI: 0.5-3.5). In contrast, women with "atypical hyperplasia" were at very high risk of developing breast cancer (OR 13.0; 95% CI: 4.1-41.7). When planning mammography screening or other large-scale early-diagnosis programmes for breast cancer in the general female population, follow-up of high-risk subgroups of BBD patients should be considered.     

Magnitude and laterality of breast cancer risk according to histologic type of atypical hyperplasia: results from the Nurses' Health Study

BACKGROUND: Atypical hyperplasia (AH) in a benign breast biopsy is associated with an increased breast cancer risk. However, the influence of the histologic type of AH on the magnitude and laterality of breast cancer risk is poorly defined. METHODS: The authors conducted a case-control study of benign breast disease and breast cancer risk nested within the Nurses' Health Study (395 cases, 1610 controls). Benign breast biopsy slides were reviewed and categorized as showing nonproliferative lesions, proliferative lesions without atypia, or AH. Slides that showed AH were categorized further as atypical ductal hyperplasia (ADH) or atypical lobular hyperplasia (ALH). RESULTS: The odds ratio (OR) for breast cancer among all women with AH was 4.1 (95% confidence interval [95% CI], 2.9-5.8). However, among premenopausal women, breast cancer risk was higher for women with ALH (OR, 7.3; 95% CI, 3.8-14.2) than for women with ADH (OR, 3.1; 95% CI, 2.0-4.8). Overall, 58.9% of invasive breast cancers that developed in women with AH were in the ipsilateral breast, and the frequency of ipsilateral breast cancer was similar for women with ALH (61.3%) and women with ADH (55.9%; P = .66). CONCLUSIONS: Women with AH in a benign breast biopsy were at a substantially increased risk for the development of breast cancer. Among premenopausal women, the risk appeared to be greater for those with ALH than those with ADH. Because only approximately 60% of cancers that develop in women with AH occur in the ipsilateral breast, for the purposes of clinical management, these lesions are viewed best as markers of a generalized (bilateral) increase in breast cancer risk.     

Sclerosing adenosis and risk of breast cancer

Over one million American women have a benign breast biopsy annually. Sclerosing adenosis (SA) is a common, but poorly understood benign breast lesion demonstrating increased numbers of distorted lobules accompanied by stromal fibrosis. Few studies of its association with breast cancer have been conducted, with contradictory results. We studied SA in the Mayo Benign Breast Disease (BBD) Cohort, which includes women who had benign biopsies at Mayo-Rochester 1967–2001. Breast cancer risk in defined subsets was assessed using standardized incidence ratios (SIRs), relative to the Iowa Surveillance, Epidemiology, and End Results registry. This BBD cohort of 13,434 women was followed for a median of 15.7 years. SA was present in 3,733 women (27.8 %) who demonstrated an SIR for breast cancer of 2.10 (95 % CI 1.91–2.30) versus an SIR of 1.52 (95 % CI 1.42–1.63) for the 9,701 women without SA. SA was present in 62.4 % of biopsies with proliferative disease without atypia and 55.1 % of biopsies with atypical hyperplasia. The presence of SA stratified risk in subsets of women defined by age, involution status, and family history. However, SA does not further stratify risk in women diagnosed with other forms of proliferative breast disease, either with or without atypia. SA is a common proliferative lesion of the breast which, as a single feature, conveys an approximate doubling of breast cancer risk. Its role in breast carcinogenesis remains undefined; its presence may aid in risk prediction for women after a breast biopsy.     

Biopsy confirmed benign breast disease, postmenopausal use of exogenous female hormones, and breast carcinoma risk

BACKGROUND: A history of proliferative benign breast disease has been shown to increase the risk of developing breast carcinoma, but, to the authors' knowledge, how postmenopausal exogenous female hormone use, in general, has affected breast carcinoma risk among women with a history of proliferative breast disease with or without atypia has not been well established. METHODS: In the current case-control study, nested within the Nurses' Health Study, benign breast biopsy slides of 133 postmenopausal breast carcinoma cases and 610 controls with a history of benign breast disease, were reviewed. Reviewers had no knowledge of case status. RESULTS: Women with proliferative disease without atypia had a relative risk for postmenopausal breast carcinoma of 1.8 (95%, confidence interval [CI]: 1.1 to 2.8), and women with atypical hyperplasia had a relative risk of 3.6 (95%, CI: 2.0 to 6.4) compared with women who had nonproliferative benign histology. Neither current postmenopausal use of exogenous female hormones nor long term use for 5 or more years further increased the risk of breast carcinoma in the study population beyond that already associated with their benign histology. CONCLUSIONS: Women who had proliferative benign breast disease, with or without atypia, were at moderately to substantially increased risk of developing postmenopausal breast carcinoma compared with women who had nonproliferative benign conditions. In the current study, postmenopausal exogenous female hormone use in general did not further increase the breast carcinoma risk for women with proliferative benign breast disease. However, the analysis did not exclude the possibility of increased risk with a particular hormone combination or dosage.     

Estrogen plus progestin and risk of benign proliferative breast disease

Women with benign proliferative breast disease are at increased risk of subsequent breast cancer. Estrogens and progesterone exert proliferative effects on mammary epithelium, and combined hormone replacement therapy has been associated with increased breast cancer risk. We tested the effect of conjugated equine estrogen plus progestin on the risk of benign proliferative breast disease in the Women's Health Initiative (WHI) randomized controlled trial. In the WHI trial of estrogen plus progestin, 16,608 postmenopausal women were randomly assigned either to 0.625 mg/day of conjugated equine estrogen plus 2.5 mg/day of medroxyprogesterone acetate or to placebo. Baseline and annual breast exams and mammograms were required. The trial was terminated early (average follow-up, 5.5 years). We identified women who had had a biopsy for benign breast disease, and subjected histologic sections from the biopsies to standardized review. Overall, 178 incident cases of benign proliferative breast disease were ascertained in the estrogen plus progestin group and 99 in the placebo group. The use of estrogen plus progestin was associated with a 74% increase in the risk of benign proliferative breast disease [hazard ratio, 1.74; 95% confidence interval (CI), 1.35-2.25]. For benign proliferative breast disease without atypia the hazard ratio was 2.00 (95% CI, 1.50-2.66), while for atypical hyperplasia it was 0.76 (95% CI, 0.38-1.52). The risk varied little by levels of baseline characteristics. The results of this study suggest that the use of estrogen plus progestin may increase the risk of benign proliferative breast disease.     

Loss of heterozygosity in benign breast epithelium in relation to breast cancer risk

The multistage model of breast carcinogenesis suggests that errors in DNA replication and repair generate diversity in the breast epithelium (the mutator phenotype), resulting in selection and expansion of premalignant clones with an acquired survival advantage. We measured loss of heterozygosity (LOH) in breast epithelial cells obtained by random fine-needle aspiration (FNA) biopsy from 30 asymptomatic women whose risk of breast cancer had been defined by the Gail model. Polymorphic microsatellite markers were selected on the basis of their relevance to breast cancer. Breast epithelium of 11 (37%) of 30 women had normal cytology, and that of 19 (63%) had proliferative cytology (eight with atypia and 11 without atypia). LOH was detected in two women with normal cytology and in 14 women (seven with atypia and seven without atypia) with proliferative cytology (P =.007). The frequency of LOH was associated with the cytological diagnosis, as well. The mean proportion (range) of informative markers demonstrating LOH was 0.02 (0-0.20) for the 11 women with normal cytology, as compared with 0.15 (0-0.50) for the 19 women with proliferative cytology (P =.02). Mean lifetime risk for developing breast cancer, as calculated by the Gail model, was 16.7% for women with no LOH compared with 22.9% for women with any LOH (P =.05). These observations support a multistage model of breast carcinogenesis where the initiating events are those that result in genomic instability. Accurate individualized breast cancer risk assessment may be possible based on molecular analysis of breast epithelial cells obtained by random FNA.     

Histologic types of benign breast disease and the risk for breast cancer. The Cancer and Steroid Hormone Study Group.

Specific histologic types of benign breast disease (BBD) may increase breast cancer risk. The authors analyzed data from a population-based, case-control study of women aged 20 to 54 with newly diagnosed breast cancer and control subjects randomly selected from the general population. A panel of pathologists classified the histologic findings of biopsy slides for 433 women with breast cancer and 261 control subjects, all of whom had a history of biopsy for BBD, as to the presence of epithelial hyperplasia, atypia, and other histologic features. When compared with women who had never had a breast biopsy, women with BBD without hyperplasia had an odds ratio of 1.5 (95% confidence limits [CL] 1.3 to 1.9), women with hyperplasia without atypia had an odds ratio of 1.8 (CL = 1.3, 2.4), and women with hyperplasia and atypia had an odds ratio of 2.6 (CL = 1.6, 4.1). Fibroadenoma was an independent risk factor for breast cancer (odds ratio = 1.7; CL = 1.1, 2.5). These findings suggest that women with BBD with epithelial hyperplasia either with or without atypia and women with fibroadenoma should be monitored carefully because of their elevated risk for breast cancer.     

Dietary and other risk factors in women having fibrocystic breast conditions with and without concurrent breast cancer: a nested case-control study in Shanghai, China

Risk of breast cancer is increased in women with proliferative benign breast conditions. Most of these conditions, however, do not progress to breast cancer. The purpose of our study was to identify factors possibly associated with this progression. Women with proliferative fibrocystic breast conditions alone (214), and women with proliferative fibrocystic breast conditions and concurrent breast cancer (130), were compared to each other, and each of these groups of women were also compared to 1,070 controls; and 176 women with non-proliferative benign breast conditions alone, and 155 also with breast cancer, were similarly compared. All study subjects were selected from a cohort of women enrolled in a trial of breast self-examination in Shanghai. Women were interviewed to ascertain information on suspected risk factors for breast cancer and dietary habits. Conditional logistic regression was used to estimate adjusted odds ratios (OR) and 95% confidence intervals (CI). Increased risks of both proliferative fibrocystic breast conditions alone, and with breast cancer, were associated with low parity, a prior benign breast lump and breast cancer in a first-degree relative. Decreasing trends in the risk of both conditions with increasing intake of fruits and vegetables were observed. No factors were significantly associated with risk of breast cancer relative to risk of proliferative changes. Similar, but in some instances weaker, associations were observed for non-proliferative fibrocystic conditions with and without breast cancer. The possible risk or protective factors that were observed in our study most likely alter the risk of breast cancer at an early stage in the carcinogenic process, and probably do not alter risk of progression from proliferative fibrocystic breast conditions to breast cancer.     

Influence of exogenous estrogens, proliferative breast disease, and other variables on breast cancer risk

The authors reevaluated 10,366 consecutive breast biopsy specimens of benign lesions performed between 1950 and 1968. Follow-up information was obtained on 3303 women with a median duration of follow-up of 17 years. This sample contained 84% of the patients originally selected for follow-up. The relative risk (RR) of developing breast cancer was 0.98 for women who took exogenous estrogens as compared to 1.8 for women who did not. Exogenous estrogens lowered the observed breast cancer risk in women with atypical hyperplasia (RR = 3.0 versus 4.5), proliferative disease without atypia (RR = 0.92 versus 1.9), and in women without proliferative disease (RR = 0.69 versus 0.91). Women who took estrogens before 1956 were at 2.3 times the risk of other estrogen users, presumably due to a dose effect. There was no significant association between breast cancer risk and birth control pills, cigarette smoking, or alcohol consumption. Exogenous estrogens are not associated with increased breast cancer risk in women with benign breast disease. A previous history of benign breast disease does not contraindicate replacement estrogen therapy.     

Plasma isoflavones and fibrocystic breast conditions and breast cancer among women in Shanghai, China.

BACKGROUND: Proliferative benign breast conditions are associated with elevated risk of breast cancer, whereas nonproliferative conditions are not strongly associated with risk. Factors acting before onset of hyperplasia might be associated with both benign conditions and breast cancer, whereas those on the proliferative disease-to-cancer pathway would be associated only with cancer. Soy isoflavone exposure may influence breast cancer risk, but little is known of its association with benign conditions. MATERIALS AND METHODS: We examined possible relationships between plasma genistein and daidzein concentrations and risk of breast disease in women, in a breast self-examination trial in Shanghai, China, diagnosed with breast cancer (n = 196) or a benign breast condition (n = 304), and 1,002 age-matched controls with no known breast disease. Benign conditions were classified as nonproliferative (n = 131) or proliferative with or without atypia (n = 173). RESULTS: Isoflavone concentrations were inversely associated with risk of nonproliferative and proliferative benign fibrocystic conditions, as well as with breast cancer, both with and without concomitant proliferative changes in ipsilateral noncancerous mammary epithelium (P(trend) < 0.01 for all comparisons with controls). Women in the highest quartile of plasma genistein (>76.95 ng/mL) were less likely to have breast cancer (odds ratio, 0.26; 95% confidence interval, 0.13-0.50) or benign conditions (odds ratio, 0.40; 95% confidence interval, 0.23-0.70) compared with women in the lowest quartile (<9.42 ng/mL). Observed risks for breast cancer with and without surrounding proliferative changes were not different, respectively, from observed risks for benign proliferative and nonproliferative conditions alone. CONCLUSION: Isoflavone exposure was inversely associated with fibrocystic breast conditions and breast cancer, and the results suggest that effects on cancer risk occur early in carcinogenesis.     

Promoter hypermethylation in benign breast epithelium in relation to predicted breast cancer risk.

INTRODUCTION: The tumor suppressor genes RASSF1A, APC, H-cadherin, RARbeta2, and cyclin D2 are methylated more frequently in breast cancer than in adjacent benign tissue. However, it is unclear whether promoter methylation of tumor suppressor genes in benign breast tissue is associated with an increased risk for breast cancer. METHODS: Promoter hypermethylation was measured in benign and malignant breast samples obtained by fine needle aspiration biopsy from 27 breast cancer patients and 55 unaffected women whose risk of breast cancer had been defined using the Gail, Claus, and BRCAPRO models. RESULTS: Cyclin D2 methylation occurred in 57% of tumor samples but not in corresponding benign breast samples and in only one sample from an unaffected patient (P < 0.0001). RARbeta2 methylation occurred in 32% of benign breast samples from cancer patients but only 9% of similar samples from unaffected women (P = 0.002). Promoter methylation of RASSF1A and APC occurred more frequently (70% and 56%, respectively) in unaffected women at high-risk for breast cancer as defined by the Gail model than in low/intermediate risk women (29% and 20%, P = 0.04 and P = 0.03). Of the Gail model risk factors, only number of prior breast biopsies was highly correlated with APC and RASSF1A methylation (P = 0.0001 and 0.02, respectively). CONCLUSIONS: Since cyclin D2 promoter methylation occurs almost exclusively in tumors, it may be possible to exploit it for the early detection of breast cancer. Promoter methylation of APC, RARbeta2, and RASSF1A in benign breast epithelium is associated with epidemiologic markers of increased breast cancer risk.     

Breast fluid cholesterol and cholesterol beta-epoxide concentrations in women with benign breast disease

Because cholesterol 5,6-epoxides have been reported to be mutagenic, carcinogenic, and cytotoxic, we investigated the relationship of these substances in breast fluid to histopathologically defined breast disease. We measured cholesterol and its oxidation product, 5 beta,6 beta-epoxide, in breast fluids from 68 women with biopsied benign breast disease (BBD) and 135 women with no history of breast disease (controls). Each biopsy was classified according to the most severe epithelial change: (a) nonproliferative epithelia; (b) hyperplasia without atypia; or (c) hyperplasia with atypia. Similar to our previous findings in control women, breast fluid cholesterol and beta-epoxide concentrations in women with BBD were associated with factors of interest in relation to breast cancer: concentrations increased with age and were higher in white than nonwhite women and in women who were past or current smokers; concentrations were lower in women who had given birth or breastfed within 2 yr. Increased breast fluid cholesterol and beta-epoxide concentrations were significantly associated with proliferative BBD (hyperplasia with or without atypia) compared to controls. After adjustment for covariates, the odds ratio for proliferative BBD associated with detectable versus nondetectable beta-epoxide concentrations was 8.5 (95% confidence intervals, 1.1, 68.8). Our findings suggest that the histological progression from normal epithelium to hyperplasia without atypia to atypical hyperplasia is associated with progressively increasing concentrations of both cholesterol and cholesterol beta-epoxide.     

Interdependence of radial scar and proliferative disease with respect to invasive breast carcinoma risk in patients with benign breast biopsies

BACKGROUND: Radial scars (RS) are benign breast lesions that have been implicated as independent risk factors for invasive breast carcinoma (IBC). METHODS: A retrospective cohort study of 9556 women who underwent biopsy between 1950-1986 and enrolled in the Nashville Breast Cohort was performed to investigate the association between RS in a benign breast biopsy and the risk of IBC. The risk associated with RS and coexistent proliferative disease (PD) was assessed adjusting for age at biopsy using a Cox hazards regression analysis with time-dependent covariates. RESULTS: RS were identified in 880 women (9.2%). The average follow-up time was 20.4 years. Sixty-two women (7.0%) with RS developed IBC compared with 5.5% of controls. The relative risk of IBC associated with RS was 1.82 (95% confidence interval [95% CI], 1.2-2.7) at 10 years. Restricting the analysis to women age > 49 years increased the risk to 2.14 (95% CI, 0.6-2.8). These risks decreased with increasing years of follow-up. Approximately 92% of women with RS also had PD, but RS were present in only 1.3% of biopsies without PD. Analyses stratifying relative risk with regard to PD found RS to minimally elevate the relative risk of subsequent IBC. CONCLUSIONS: RS in the absence of PD is uncommon. Although the presence of RS in a benign breast biopsy mildly elevates the risk of IBC risk, the current analysis indicated that this risk can be largely attributed to the category of coexistent PD. In women with both RS and atypical hyperplasia, recommendations for interventions beyond biopsy should be based on the extent of atypical hyperplasia.     

Risk Factors for Benign Breast Disease according to Histopathological Type: Comparisons with Risk Factors for Breast Cancer

We evaluated risk factors for benign breast disease by using a case-control study method. The series was taken from participants in breast cancer screening programs during 1978–1986 in Miyagi Prefecture, Japan. All benign breast lesions diagnosed during this period were reviewed and reclassified into proliferative and non-proliferative types based on the Dupont and Page classification. Data on 382 benign breast disease cases (130 proliferative-type cases and 252 non-proliferative-type cases) and 1,489 screening year-, age- and screening area-matched normal controls were used for analysis. Nulliparity or low parity and family history of breast cancer in mother or sisters were significantly associated with an increased risk of proliferative type. Premenopausal status was significantly associated with an increased risk of non-proliferative type. No significant association with history of lactation for the last child was observed in either type, but the risk of proliferative type increased with increasing duration of lactation ( P =0.08). A comparison between the present findings and the risk factors for breast cancer indicated epidemiologic similarities between proliferative benign and malignant breast lesions in general. The associations of these two lesions with lactation patterns were, however, dissimilar.     

Family history of breast cancer,age and benign breast disease

A major risk factor for breast cancer is having a first-degree family history of the disease. Benign breast disease (BBD), particularly atypical hyperplasia, is also associated with an increased risk of breast cancer. However, the relationship between family history of breast cancer and BBD is unclear. From 1989 through 1997, 80,995 participants in the Nurses' Health Study II were followed; 16,849 reported a first diagnosis of BBD. Pathology slides were reviewed for 1,465 women who reported having a tissue biopsy, and these were classified as nonproliferative BBD, proliferative BBD without atypia or atypical hyperplasia. Women with a family history of breast cancer were more likely to report a physician diagnosis of BBD [rate ratio (RR) = 1.38, 95% confidence interval (CI) 1.29-1.46]. The magnitude of this association declined with age from RR = 1.96 (95% CI 1.55-2.47) at 25-29 years to RR = 1.20 (95% CI 0.95-1.52) at age 45-50 years. Among women with proliferative disease, those with a family history of breast cancer were almost 3 times as likely to have atypia (prevalence odds ratio = 2.72, 95% CI 1.23-5.89) than those with no family history. In conclusion, women with a family history of breast cancer appear to be at increased risk of being diagnosed with BBD, in particular the high-risk types of BBD associated with a greatly increased risk of breast cancer. This link adds weight to the belief that BBD with atypia is a precursor or marker lesion for breast cancer.     

Cerumen phenotype and proliferative epithelium in breast fluids of U.S.-born vs. immigrant Asian women: A possible genetic-environmental interaction

Summary To determine whether a genetic-environmental interaction exists between the breast, a modified apocrine gland, its secretions, and the genetic polymorphic phenotypes of wet and dry cerumen, we examined nipple aspirate fluid (NAF) for proliferative disease in 172 U.S.-born and immigrant Chinese and Japanese women.Cytologic evidence of proliferative epithelial cells (benign hyperplasia and/or atypical hyperplasia) was found in the NAF of 36 women (20.9%). A significantly higher incidence of proliferative epithelial cells was present in the NAF of U.S.-born than in immigrant Asian women (28.6% vs. 16.5%) (p = 0.05).A higher proportion of U.S.-born Asian women with wet cerumen than women with dry cerumen had proliferative epithelial cells in NAF: 39.3% vs. 20.0% (p = 0.08). No significant difference in NAF proliferative cells was found between immigrant women with wet and dry cerumen: 15.8% vs. 17.3%; p = 0.50. A strong association of proliferative epithelial cells and cerumen phenotype was found in parous U.S.-born women (wet = 47.6% vs. dry = 16.0%; p = 0.002). No significant association with wet and dry cerumen phenotype was found in parous immigrant women (wet = 12.2% vs. dry = 20%).These findings support the hypothesis that an apocrine genetic polymorphic trait differentially influences susceptibility of the breast to proliferative disease in Asian women born in environments presumed to be of high risk for breast cancer compared to women from low risk environments.